The effect of growth hormone treatment on stature in Aarskog syndrome.

We describe 19 males with Aarskog syndrome who were treated with growth hormone (GH) and enrolled in the National Cooperative Growth Study (NCGS). There was a significant increase in both growth rate (3.9 +/- 1.9 cm/yr vs 8.9 +/- 1.7 cm/yr, p < 0.001) and height SD score (change in HtSDS = 1.0 +/- 0.8). The increase in HtSDS was dependent on treatment duration, frequency of injections, weight-for-height SDS, and HtSDS at enrollment. The results of our study suggest a positive effect of GH treatment on growth and adult height in Aarskog syndrome patients.     

Fanconi's anemia with growth hormone deficiency.

The association of Fanconi's anemia (FA) and growth hormone (-gh) deficiency is not commonly reported. These children may have the typical features of the FA syndrome, or may exhibit much variability in clinical and hematological findings. In a single family, members may have FA with or without GH deficiency. The genetic basis for this heterogeneity is unknown. We describe here two siblings with FA, one of whom had dwarfism due to GH deficiency. Combined treatment with GH and androgen (oxymetholone) resulted in strikingly greater acceleration of growth than did the use of GH alone. Pancytopenia was not influenced by hormone therapy.     

Growth hormone replacement therapy in children with leukemia in remission

We describe a patient with leukemia in remission for 7 years who developed growth hormone (GH) deficiency and was treated with recombinant human growth hormone (rhGH). We compare her growth with that of patients from the National Cooperative Growth Study (NCGS) database, 145 with leukemia in remission and 725 with idiopathic growth hormone deficiency (IGHD) on treatment with rhGH. We also review the literature on the risk of relapse of leukemia in similar patients. The patients with leukemia in remission from the NCGS database had a significantly lower change of mean height standard deviation score than that of IGHD patients in the first, second, and third year of rhGH treatment. The relapse rate of leukemia in patients treated with rhGH is between 0.8% and 2%. Starting rhGH therapy in patients with leukemia in remission and with GH deficiency at an adequate dosage and without undue delay would improve their growth response. Such therapy does not appear to increase the risk of leukemia.     

Insulin secretion in children with growth retardation

The effect of tolbutamide administration on insulin secretion was studied in 69 children with growth retardation. Diminished insulin secretion was found in all the patients, compared to the control group. This insulin deficit was most evident in patients with isolated, total GH deficiency and least evident in children with idiopathic short stature. Intermediate values were found in dwarfism due to isolated, partial GH deficiency.These results favour the hypothesis that hypoinsulinism contributes to the somatotropin deficiency in causing growth retardation.Abbreviations PD pituitary dwarfism - FSS familial short stature - GR growth retardation - GH growth hormone - ISS idiopathic short stature - tbt tolbutamide - GHtd isolated, total GH deficiency - GHpd isolated, partial GH deficiency     

Growth hormone deficiency impedes the rise in plasma insulin-like growth factor I levels associated with precocious puberty

We tested the hypothesis that growth hormone (GH) mediates the rise in insulin-like growth factor I (IGF-I) concentrations in children with precocious puberty. We studied three groups of patients. Group 1 included six children with GH deficiency and precocious puberty (precocious GH-deficient); group 2 included 10 GH-sufficient patients with idiopathic true precocious puberty (precocious GH-sufficient); and group 3 included 9 prepubertal children with GH deficiency (prepubertal GH-deficient). Growth rates, pubertal status, and plasma IGF-I concentrations were determined at regular intervals. The precocious children with GH deficiency had a mean (+/- SD) growth rate of 7.2 +/- 2.1 significantly below that of the precocious GH-sufficient patients (10.5 +/- 2.5 cm/yr, p less than 0.05) but above that of the prepubertal GH-deficient children (3.9 +/- 1.4 cm/yr, p less than 0.05). The mean IGF-I concentration in the precocious GH-deficient children was 0.77 +/- 0.39 U/ml, significantly lower than the mean level of 2.2 +/- 0.67 U/ml in the precocious GH-sufficient patients (p less than 0.01). However, precocious GH-deficient patients had significantly higher IGF-I values than the prepubertal GH-deficient children (0.24 +/- 0.10 U/ml, p less than 0.05). IGF-I values did not rise with the onset of precocious puberty in four of the precocious GH-deficient children evaluated before and after the development of precocious puberty. However, three patients who began GH treatment did have a rise in plasma IGF-I concentrations to levels of 1.2, 3.4, and 3.7 U/ml, respectively. These findings are compatible with the concept that sex steroids increase IGF-I levels in precocious puberty primarily by increasing GH production. A small but direct effect of sex steroids on IGF-I production may also exist. The onset of precocious puberty in children with organic GH deficiency may mask the abnormal growth pattern of these children and delay diagnosis; determinations of plasma IGF-I concentrations may be helpful in assessing the GH status of these patients.     

Therapy in short children with subnormal integrated concentrations of growth hormone

We evaluated the effect of growth hormone (GH) therapy on the posttreatment growth of 11 poorly growing children who had normal GH response to provocative stimuli but subnormal integrated concentrations of GH. Patients received 0.1 U/kg of GH three times per week. Their mean (+/- SD) growth rate increased from 3.3 +/- 1.0 cm/y before treatment to 6.5 +/- 1.4 cm/y after eight months of treatment. The growth rates of five patients declined to below 4.5 cm/y four months after treatment. Three of these patients resumed GH therapy and again responded with increased growth velocity (8.0 +/- 1.2 cm/y). After therapy, the growth rate of five remaining patients continued to be greater than 4.5 cm/y (6.8 +/- 1.4 cm/y). Two of these patients had entered puberty and their posttreatment growth rate might have been due to a pubertal growth spurt. The three prepubertal patients in this group had a gradual decline in growth velocity to 3.8 +/- 1.0 cm/y by the end of 12 posttreatment months. We conclude that maintenance of normal growth in patients with this pattern of GH deficiency is dependent on GH replacement therapy.     

Insulin-like growth factor-I treatment of children with Laron syndrome (primary growth hormone insensitivity)

Laron syndrome (LS, congenital primary GH insensitivity) is caused by deletions or mutations in the GH receptor gene, resulting in an inability to generate insulin-like growth factor-I (IGF-I). If untreated, the deficiency of IGF-I results in severe dwarfism, as well as skeletal and muscular underdevelopment. The only treatment is the daily administration of recombinant IGF-I. This review summarizes the present experience by several groups worldwide. The main conclusions are: A. The one or two injections regimen result in the same growth velocity; B. The growth velocity obtained with IGF-I administration is smaller than that observed with hGH in children with congenital isolated GH deficiency; C. Overdosage of IGF-I causes a series of adverse effects which can be avoided by carefully monitoring the serum IGF-I and GH levels.     

Infancy growth pattern related to growth hormone deficiency

Linear growth during the first three years of life can be represented mathematically in terms of the "ICP-growth model", using a combination of a quickly decelerating Infancy component with the addition of a slowly decelerating Childhood component, the latter acting from the second half of the first postnatal year. The growth pattern for supine length of four children with growth hormone (GH) deficiency is related here to the first two components of this growth model. Basically, all four infants displayed a pattern in line with the exponential shape of the Infancy component to the age when GH therapy was initiated. This observation indicates the existence of the Infancy component as it has been adopted for the ICP-model, and also that it represents the part of postnatal linear growth which seems to be independent of GH. The onset of the Childhood component in healthy subjects has been observed as an abrupt increase in growth rate during the second half of the first year of life. A similar abrupt increase was observed in this study at the time of the initiation of GH therapy (16-27 months). This observation gives some further empirical support to the hypothesis that the child's age at onset of the Childhood component defines the as yet undetermined age at which GH begins to exert a significant influence on linear growth. ICP-based growth charts provide an improved instrument for early detection of GH deficiency.     

Characteristics of growth hormone therapy for pediatric patients with brain tumors in the National Cooperative Growth Study (NCGS) and from a survey of pediatric endocrinologists

Pediatric patients with brain tumors may have significant short stature secondary to growth hormone deficiency (GHD). This occurs as a result of impaired hypothalamic function due to tumor location, radiation therapy, surgery, or chemotherapy. The use of GH replacement therapy in this patient population is variable and somewhat unpredictable. We analyzed patient data from the National Co-operative Growth Study (NCGS) database and a survey completed by 19 members of the Pediatric Endocrine Alliance for Neuro Oncology Patients (PEANOP) to identify patterns of GH use in pediatric patients following treatment for brain tumors. From the NCGS database, we present demographic, dosing, and safety data. The PEANOP survey was examined to determine the percentage of patients receiving GH and the likelihood of treating these patients with GH following tumor treatment. The time to initiating GH replacement therapy was evaluated in 14 tumor types, as well as the contributing impact of the extent of tumor resection.     

Novel splice site mutation in the growth hormone receptor gene in Turkish patients with Laron-type dwarfism

Growth hormone (GH) is involved in growth, and fat and carbohydrate metabolism. Interaction of GH with the GH receptor (GHR) is necessary for systemic and local production of insulin-like growth factor-I (IGF-I) which mediates GH actions. Mutations in the GHR cause severe postnatal growth failure; the disorder is an autosomal recessive genetic disease resulting in GH insensitivity, called Laron syndrome. It is characterized by dwarfism with elevated serum GH and low levels of IGF-I. We analyzed the GHR gene for mutations and polymorphisms in eight patients with Laron-type dwarfism from six families. We found three missense mutations (S40L, V125A, I526L), one nonsense mutation (W157X), and one splice site mutation in the extracellular domain of GHR. Furthermore, G168G and exon 3 deletion polymorphisms were detected in patients with Laron syndrome. The splice site mutation, which is a novel mutation, was located at the donor splice site of exon 2/ intron 2 within GHR. Although this mutation changed the highly conserved donor splice site consensus sequence GT to GGT by insertion of a G residue, the intron splicing between exon 2 and exon 3 was detected in the patient. These results imply that the splicing occurs arthe GT site in intron 2, leaving the extra inserted G residue at the end of exon 2, thus changing the open reading frame of GHR resulting in a premature termination codon in exon 3.     

The catecholamine response to hypoglycemia in children with isolated growth hormone deficiency syndromes and multiple pituitary hormone defects

We examined the catecholamine response to insulin-induced hypoglycemia in 46 short children evaluated for growth hormone (GH) deficiency by both pharmacologic stimulation and integrated concentration of GH. Twelve patients had quantitatively normal GH secretion by both pharmacologic stimulation and integrated concentration of GH (GHNORM). Twenty-two patients had normal GH to pharmacologic stimulation but subnormal integrated concentration of GH (GHND). Twelve patients had GH deficiency by both tests (GHD): six had isolated GH deficiency (GHD type 1) and six had multiple hormone deficiencies (GHD type 2). There was no significant difference between the peak epinephrine, norepinephrine, and cortisol responses of GH-NORM, GHND, and GHD type 1 patients. The mean peak epinephrine response of GHD type 2 patients was significantly lower (564 +/- 561 pg/ml, p less than 0.03) compared to the other patient groups. There was no significant difference between the peak norepinephrine levels between GHD type 2 patients and the remaining groups. There was no correlation between decrease in blood glucose and either increase in growth hormone, catecholamine, or cortisol concentrations. There was a significant correlation between log peak epinephrine and peak cortisol response (r = 0.53, p less than 0.0002) of the 46 subjects. Neither the basal nor stimulated catecholamine levels correlated with the integrated concentration of cortisol. We conclude that isolated GH deficiency is not associated with impairment of the catecholamine response to hypoglycemia; impairment of the epinephrine response to hypoglycemia is only associated with multiple pituitary hormone deficiencies; in children, the degree of glucose lowering is not correlated with the magnitude of peak GH, catecholamine, or cortisol responses.     

Nocturnal growth hormone secretion in children with constitutional and acquired developmental delay]

We investigated the spontaneous secretion of GH during sleep (20.00 to 8.00) in 76 children with short statute. No difference could be found between a group of 12 children with familiar short stature or a group of 28 children with familial delay of growth and development: mean GH level 5.88:5.71 maxima 26.9:25.4 ng/ml, and integrated concentration of GH 2360:2617 ng x min/ml. 14 children with severe growth hormone deficiency proven by 2 stimulation tests, secreted significantly lower amounts of GH (mean 0.83 ng/ml, maximum 2.9 ng/ml, integrated concentration 371 ng x min/ml). 22 children with nonfamilial delay of growth and development presented values being lower than the first two groups, but higher than the group of GH deficiency patients (mean 3.07 ng/ml, maximum 13.8 ng/ml, integrated concentration 1429 ng x min/ml). Since in these children the anamnesis revealed events like breech delivery, shock or commotio cerebri as the history of patients with GH deficiency does, these events apparently cause the defective GH secretion in nonfamilial delay of growth and development.     

Two years of growth hormone treatment in the first growth hormone deficient patient with cerebrofaciothoracic dysplasia

We recently reported two siblings, a sister and a brother, with intrauterine growth retardation, microcephaly, short stature, mental retardation, facial dysmorphism and multiple costovertebral malformations. These features fit most with the diagnosis of cerebrofaciothoracic dysplasia, or Pascual-Castroviejo syndrome. The second sibling, our index patient, presented also with cleft palate and growth hormone (GH) deficiency, suggesting that endocrinological assessment should be performed in short patients with this syndrome, especially if midline defects are present. We present the results of 2 years GH treatment of this first GH deficient patient with cerebrofaciothoracic syndrome and compare the results to those observed in other genetic syndromes with GH deficiency.     

Growth response to growth hormone therapy following cranial irradiation

The growth response to growth hormone (GH) therapy has been studied in 12 children who received irradiation to the cranium alone either for brain gliomas, distant from the hypothalamic-pituitary axis, or as prophylaxis against CNS leukaemia. Seven children have completed GH treatment (mean duration 4 years) and five are presently on GH (mean duration 1.2 years). This response has been compared to that seen in 14 children with isolated idiopathic GH deficiency (IGHD), following GH therapy. Before treatment, the cranially irradiated patients (C-PRGHD) had higher standard deviation scores (SDS) for standing height, sitting height and leg length, and less bone age (BA) retardation, but started treatment at a similar age, and with a similar pre-treatment growth velocity and GH peak to standard provocative tests, compared to IGHD patients. GH produced a significant and similar increase in growth velocity (cm/year and SDS for BA) over the first 2 years' treatment in both groups. However C-PRGHD patients entered puberty and thus completed growth earlier than the IGHD group. As a result, cranially-irradiated children showed no change in height SDS with GH therapy, compared to catch-up growth in IGHD. Nevertheless, GH has enabled C-PRGHD patients to maintain their centile position and to achieve a more acceptable final height.Abbreviations GH growth hormone - IGHD idiopathic growth hormone deficiency - C-PRGHD post cranial-irradiation growth hormone deficiency - SDS standard deviation score - BA bone age - ALL acute lymphatic leukaemia - TSH thyroid stimulating hormone - CA chronological age - HA height age     

Survey of clinical practice: growth hormone use during illness

Prior to the 1999 National Cooperative Growth Study (NCGS) meeting, a postal card survey was conducted of the NCGS investigators about their current practices regarding continuation of growth hormone (GH) therapy during intercurrent illnesses. The survey results were subsequently compared with responses to the same questions obtained from NCGS investigators who attended lectures at the NCGS meeting describing the physiology and effects of GH in critically ill patients. Comparing results from the two surveys, there were no observed differences in the responses with respect to practices relative to the intercurrent illnesses treated at home. The percentage of NCGS investigators who indicated that they would stop GH treatment during more serious illnesses was greater following attendance at the lectures.     

Urinary excretion of pyridinium crosslinks in short children treated with growth hormone

The aim of this study was to evaluate the effect of growth hormone (GH) treatment on bone resorption in children with GH deficiency and those with idiopathic short stature. The study population included seven children with subnormal spontaneous GH secretion and 13 children with idiopathic short stature, all of them pre-pubertal. Anthropometric measurements, free, protein-bound and total urinary pyridinoline (Pyd) and deoxypyridinoline (Dpd), serum GH, and serum immunoreactive PTH were measured at baseline and months 1, 3, 6 and 12 of GH treatment. The urinary excretion of total Pyd and Dpd, standardized by the cube of height (m3) in overnight, 24-hour urine collections was not different from age-matched healthy controls at baseline in either group of patients. During treatment with human recombinant GH, both pyridinium crosslinks increased above normal values, reaching a peak after one month in children with GH deficiency and later (after 3-6 months) in children with short stature. Free and total crosslink forms were correlated, and GH treatment did not affect the proportion of free to bound crosslinks. Serum concentrations of iPTH showed a moderate but not statistically significant increase. This study provides no evidence of reduced bone resorption in untreated GH deficiency or in idiopathic short stature. GH treatment induced a marked, but temporary, increase of bone resorption in both groups of patients.     

Amelogenesis imperfecta with growth hormone deficiency in a 12 year-old boy

Amelogenesis imperfecta (AI) is a diverse group of hereditary disorders that are characterized by a defect in the formation of the tooth enamel and a high degree of clinical diversity. X-linked, autosomal dominant and recessive inheritance have been demonstrated. Growth hormone (GH) has an effect on bone and soft tissue development. Dental and facial abnormalities associated with pituitary dwarfism have been reported, but GH deficiency with AI is very rare. We describe a 12 year-old pre-pubertal boy who was referred to our hospital with teeth deformities and growth retardation. His teeth had brown-yellow pigmented surfaces, and dental examination showed extensive enamel deficiency in his permanent teeth. He also had severe growth retardation; height SDS was -3.6. Laboratory examinations showed reduced GH levels, and he was diagnosed as having idiopathic isolated GH deficiency and AI.     

Growth and adult height in atypical coeliac patients, with or without growth hormone deficiency

OBJECTIVE: To evaluate the effect of a gluten-free diet on growth and adult height, when available, in coeliac children without gastrointestinal symptoms. PATIENTS AND METHODS: Sixty-one coeliac children without gastro-intestinal symptoms were included in the study. The age at diagnosis was 9.50 +/- 3.3 years. Thirty-eight had short stature at diagnosis (< 10th percentile) and 23 had normal stature. Thirty-seven reached adult height. RESULTS: After beginning the diet an increase in growth velocity was seen in 30 patients (responders) (20 with initial short stature), while in 31 patients (18 with short stature) there was no catch-up growth (non-responders). Bone age at diagnosis was significantly more delayed in the responders than in the non-responders. Target height was significantly higher in children with normal stature at diagnosis than those with short stature. Growth hormone (GH) deficiency was found and confirmed after 6-12 months of diet in 12 of the 38 patients (32%) with short stature. In the group of the 30 'short' patients who attained final height, target height was attained or improved in 12 patients (40%): in eight of the 16 (50%) responders and in four of the 14 (29%) non-responders; in eight (all responders) out of 22 (36%) without GH deficiency, and in four out of eight (50%) patients with GH deficiency treated with GH (all non-responders). CONCLUSIONS: In children in whom coeliac disease is diagnosed because of short stature, a gluten-free diet will be successful if at diagnosis there is a delay of bone age and in the first year of diet there is an evident catch-up growth. When this does not occur, i.e. in half of the patients (18 out of 38), it may be because of an associated and transient GH deficiency. In these patients a period of GH replacement therapy as well as a gluten-free diet may improve their final height.     

Twelve-hour spontaneous nocturnal growth hormone secretion in growth retarded patients

Twelve-hour nocturnal GH secretion was studied in 30 children with familial short stature (FSS), constitutional growth delay (CGD), total growth hormone deficiency (TGHD), partial growth hormone deficiency (PGHD), or idiopathic short stature (ISS). No difference was observed between subjects with FSS and children with CGD. The mean 12-hour serum GH concentration was significantly lower in patients with TGHD (p less than 0.001), children with PGHD (p less than 0.01), and subjects with ISS (p less than 0.01) than in subjects with FSS and CGD. No overlap was observed between the range of mean concentration values of children with TGHD and that of subjects with FSS. A significant correlation was found between growth velocity expressed as SD from the mean for bone age and GH concentration (p less than 0.001). All patients with a growth velocity less than 3rd percentile for bone age showed a mean nocturnal concentration less than 4 ng/ml. These data suggest that evaluation of 12-hour spontaneous nocturnal GH secretion with GH sampling every 30 minutes can be usefully employed in the diagnosis of GH deficiency.     

Administration of arginine plus growth hormone releasing hormone to evaluate growth hormone (GH) secretory status in children with GH deficiency

BACKGROUND: Diagnosis of growth hormone deficiency (GHD) in childhood is usually based on growth hormone (GH) response to at least two provocative stimuli. The aim of this study was to determine whether sequential administration of arginine (Arg) plus GH releasing hormone (GHRH) could be a useful tool in evaluating GHD in children. METHODS: Thirty patients with short stature (mean age 9.0 years) with decreased growth rate were tested for GHD with Arg and the insulin tolerance test (ITT). Patients with confirmed GHD (peak GH <8 ng/ml) were subsequently tested with Arg + GHRH. RESULTS: Maximum GH stimulation for Arg and ITT was 6.3 (1.0-7.8) and 6.7 (0.5-7.7) ng/ml, respectively. Peak GH for the Arg + GHRH test was 36.3 (4.3-84.5) ng/ml and significantly different from the other provocative tests. Peak GH values for the three tests were not significantly correlated between tests or with clinical parameters. There were no significant differences in Arg + GHRH results between children with or without abnormal hypothalamic-pituitary MRI scans. CONCLUSION: Arg + GHRH gave higher GH levels than insulin or Arg alone. Because of the different causes of childhood GHD (hypothalamic and/or pituitary dysfunction), the Arg + GHRH test is unsuitable .for evaluating GHD and deciding whether GH replacement therapy is indicated.